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大型铝电解槽新式节能阴极结构技术的应用研究 被引量:16

Research and application of new energy saving cathode structure technology in high amperage aluminum reduction pot
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摘要 电解铝行业不断进行铝电解槽节能技术的开发,以获取良好的电解槽生产技术经济指标。本文针对某铝厂SY400电解槽应用新式节能阴极结构技术,减少铝液中水平电流,并降低了电解槽阴极压降,同时通过电解槽热平衡仿真模拟,设计保温型内衬结构。与传统槽相比,吨铝直流电耗降低582k Wh,为企业带来巨大的经济效益。 In order to obtain good economic indicators of aluminum reduction, the energy saving technology of aluminum reduction pot is being developed constantly. The new energy saving cathode structure technology was applied on a SY400 potline, which could reduce the horizontal current in the alumi- num liquid and decrease the voltage of cathode. The pot heat balance simulation was used to design the thermal insulation lining structure. Compared with the traditional pot, the DC power consumption of aluminum reduction was reduced by 582kWh/t- A1. which could bring enormous economic benefits for the smelter.
作者 胡红武 曹曦 孙康健
机构地区 沈阳铝镁设计研究院有限公司
出处 《轻金属》 CSCD 北大核心 2016年第10期33-36,共4页 Light Metals
关键词 铝电解槽 新式节能阴极结构技术 水平电流 阴极压降 aluminum reduction pot new energy saving cathode structure technology horizontal current cathode voltage drop
分类号 TF821 [冶金工程—有色金属冶金]
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  • 1杨晓东,周东方,刘伟.节能电解槽技术的研发和进展[J].轻金属,2011(S1):165-169. 被引量:18
  • 2杨晓东,刘雅锋,周东方,等.一种铝电解槽节能降耗的方法[P].中国专利:CN101768759A.2010—07—07. 被引量:1
  • 3O. Zikanov, A Thess. P. A. Davidson, eta. A new approach to numerical simulation of melt flows and interface instability in Hall - Heroult cells [ J ]. Metallurgical and Materials Transactions B, 2000,31B (12) , 1541 - 1550. 被引量:1
  • 4Severo D S, Schneider A F, Pinto E C V, et al. Modeling magnetohydrodynamics of Aluminium electrolysis cells with ANSYS and CFX [ A]. Light Metals[ C]. 2005. 475 -480. 被引量:1
  • 5Severo D S, Gusberti V, Schneider A F, et al. Comparison of various methods for modeling the metal - bath interface [ A ]. Light Metals [ C].2008.413 -418. 被引量:1
  • 6Shekhar R, Evans J W. Modeling studies of electrolyte flow and bubble behavior in advanced Hall cells [ J ]. Light Metals, 1990 ( Warrendale, PA, USA, TMS) : 243. 被引量:1
  • 7Johansen S T, Robertson D G C, Woje K, et al. Fluid Dynamics in Bubble stirred Ladles: Part Ⅱ. Mathematical Modeling[J]. Metallurgical Transactions B, 1998,19B :755 - 764. 被引量:1
  • 8Kevin J Fraser, Mark P Taylor, Andrew M Jenkin. Electrolyte Heat and Mass Transport Processes in Hall Hereult Electrolysis Cells [J]. Light Metals, 1990 ( Warrendale, PA, USA, TMS) :221 - 226. 被引量:1
  • 9Purdie J M, Bilek M, Taylor M P,et al. Impact of Anode Gas Evolution on Electrolyte Flow and Mixing in Aluminum Electrowinning Cells [ J ]. Light Metals, 1993 (Warrendale, PA, USA, TMS) : 335 - 360. 被引量:1
  • 10李劼.预焙阳极底部开排气沟对电解质流场的影响[C].第四届铝电解专业委员会2004年年会暨学术交流会论文集,2004:42—48. 被引量:1

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轻金属
2016年 第10期

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